Sam MacNaughton scite author profile

Sam MacNaughton

4Publications

48Citation Statements Received

44Citation Statements Given

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Affiliations

NanoLab (United States), Tufts University

Publications

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Metamaterials on parylene thin film substrates: Design, fabrication, and characterization at terahertz frequency

Liu

MacNaughton

Shrekenhamer

et al. 2010

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We design, fabricate, and characterize terahertz ͑THz͒ resonant metamaterials on parylene free-standing thin film substrates. Several different metamaterials are investigated and our results show strong electromagnetic responses at THz frequencies ranging from 500 GHz to 2.5 THz. The complex frequency dependent dielectric properties of parylene are determined from inversion of reflection and transmission data, thus indicating that parylene is an ideal low loss substrate or coating material. The biostable and biocompatible properties of parylene coupled with the multifunctional exotic properties of metamaterials indicate great potential for medical purposes such as THz imaging for skin cancer detection.

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Heterogeneous metal-oxide nanowire micro-sensor array for gas sensing

DeMeo

MacNaughton

Wang

et al. 2014

Mater. Res. Express

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Vanadium oxide, manganese oxide, tungsten oxide, and nickel oxide nanowires were investigated for their applicability as chemiresistive gas sensors. Nanowires have excellent surface-to-volume ratios which yield higher sensitivities than bulk materials. Sensing elements consisting of these materials were assembled in an array to create an electronic nose platform. Dielectrophoresis was used to position the nanomaterials onto a microfabricated array of electrodes, which was subsequently mounted onto a leadless chip carrier and printed circuit board for rapid testing. Samples were tested in an enclosed chamber with vapors of acetone, isopropanol, methanol, and aqueous ammonia. The change in resistance of each assembly was measured. Responses varied between nanowire compositions, each demonstrating unique and repeatable responses to different gases; this enabled direct detection of the gases from the ensemble response. Sensitivities were calculated based on the fractional resistance change in a saturated environment and ranged from 6 × 10 −4 to 2 × 10 −5 %change ppm −1 .

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Paint-on metamaterial: Low cost fabrication of absorbers at X band frequencies

Mutzel

MacNaughton

Sonkusale

2012

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A CMOS platform for the integration of heterogeneous arrays of carbon nanotubes and graphene chemiresistors

MacNaughton

Sonkusale

2013

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Sam MacNaughton

Metamaterials on parylene thin film substrates: Design, fabrication, and characterization at terahertz frequency

Heterogeneous metal-oxide nanowire micro-sensor array for gas sensing

Paint-on metamaterial: Low cost fabrication of absorbers at X band frequencies

A CMOS platform for the integration of heterogeneous arrays of carbon nanotubes and graphene chemiresistors

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